SU378645A1 - LIBRARY - Google Patents

Description

one

The invention relates to heat engines using atmospheric heat, and can be used as a drive.

Thermal power plants are known that use atmospheric heat, contain an atmospheric turbine and a refrigerator and a compressor located behind it.

The proposed installation is characterized by the fact that Oak with a refrigerant is connected to the refrigerator through the cooling medium at the inlet, and at the outlet is a high-pressure ejector nozzle for compressing the atmospheric medium. A vapor-gas turbine is placed behind the ejector, either conventional or in the form of a Segner wheel for driving a prop screw.

This makes it possible to increase the efficiency of the installation by utilizing the heat removed in the refrigerator.

The installation scheme is L-parameter in the drawing.

The heat and power installation contains an atmospheric circuit in which the environment is used and a refrigerant circuit. The installation also contains a system for starting and maintaining a predetermined mode.

The atmospheric contour of the installation consists of a filter /, a turbine 2, a refrigerator 3 and a compressor 4, which creates a vacuum in the channels for the passage of atmospheric gas. The refrigerant circuit contains a refrigerant tank 5, a cooler 3, a pump 6, an ejector 7 in which additional heating is carried out and a vapor-gas mixture is formed due to the movement of refrigerant vapor with gas from the atmosphere, and a screw 8 with nozzles 9.

The steam and gas turbine and the turbine 2 of atmospheric contour rotate the shaft. The launch system contains a starter 10 with an energy source (pyrostarter, electric starter, etc.), spinning up the rotor of the installation, reverse

A valve //, a controllable valve 12 in the atmospheric circuit and a control valve 13 of the refrigerant, which provides for control of the installation by changing the flow rate of the refrigerant in the tank 5.

The starting system - starter U - performs the initial drive of compressor 4, which creates the preliminary necessary vacuum in the units of the atmospheric circuit, pumping gas through the valve // into the atmosphere at the closed position of the controlled valve 12 in the atmospheric circuit and the control valve of the refrigerant 13. After supplying the control pulse to the valve 13, the refrigerant from the tank 5 by gravity fills the lines and the pump 6 and enters the channels of the refrigerator 3. Simultaneously with filling the lines with the refrigerant after supplying the control pulse controllable .klapan 12 and its opening gas from the atmosphere enters the filter 1 through the turbine 2, the rotor spinning installation. The gas cooled in the refrigerator 3 is pumped to the atmosphere through clalan 11.

The refrigerant vapor produced in the channels of the refrigerator 3 enters the ejector 7, where they are dololitally heated and a vapor-gas mixture is formed by mixing the refrigerant vapor with gas from the atmosphere. The vapor-gas mixture obtained in the ejector. 7 enters the channels of the screw 8 and further to the nozzles 9.

Subject invention

Claims (3)

1. Thermal power plant using atmospheric heat, containing an atmospheric turbine and located behind the cooler and compressor, characterized in that, in order to increase its efficiency, a coolant tank is connected to the cooler through the cooling medium at the inlet, and saline ejector to compress the atmosphere. 2. The installation according to claim 1, characterized in that a vapor-gas turbine is mounted behind the ejector and is mounted on the same shaft with the atmosphere. 3. Installation on PP. 1, 2, characterized in that the vapor-gas turbine is made in the form Segner wheels for driving a traction screw. ABOUT five